Exemplo n.º 1
0
func exchangeSubnet(c *C, name string, dnstype uint16, ip string) *dns.Msg {
	msg := new(dns.Msg)

	msg.SetQuestion(name, dnstype)

	o := new(dns.OPT)
	o.Hdr.Name = "."
	o.Hdr.Rrtype = dns.TypeOPT
	e := new(dns.EDNS0_SUBNET)
	e.Code = dns.EDNS0SUBNET
	e.SourceScope = 0
	e.Address = net.ParseIP(ip)
	e.Family = 1 // IP4
	e.SourceNetmask = net.IPv4len * 8
	o.Option = append(o.Option, e)
	msg.Extra = append(msg.Extra, o)

	c.Log("msg", msg)

	return dorequest(c, msg)
}
Exemplo n.º 2
0
func resolve(server string, domain string, clientIp *string) ([]dns.RR, error) {
	// queryType
	var qtype uint16
	qtype = dns.TypeA

	// dnsServer
	if !strings.HasSuffix(server, ":53") {
		server += ":53"
	}

	domain = dns.Fqdn(domain)

	msg := new(dns.Msg)
	msg.SetQuestion(domain, qtype)
	msg.RecursionDesired = true

	if *clientIP != "" {
		opt := new(dns.OPT)
		opt.Hdr.Name = "."
		opt.Hdr.Rrtype = dns.TypeOPT
		e := new(dns.EDNS0_SUBNET)
		e.Code = dns.EDNS0SUBNET
		e.Family = 1 // ipv4
		e.SourceNetmask = 32
		e.SourceScope = 0
		e.Address = net.ParseIP(*clientIP).To4()
		opt.Option = append(opt.Option, e)
		msg.Extra = []dns.RR{opt}
	}

	client := &dns.Client{
		DialTimeout:  5 * time.Second,
		ReadTimeout:  20 * time.Second,
		WriteTimeout: 20 * time.Second,
	}

	resp, rtt, err := client.Exchange(msg, server)
	return resp.Answer, err
}
Exemplo n.º 3
0
Arquivo: serve.go Projeto: abh/geodns
func (srv *Server) serve(w dns.ResponseWriter, req *dns.Msg, z *Zone) {

	qname := req.Question[0].Name
	qtype := req.Question[0].Qtype

	var qle *querylog.Entry

	if srv.queryLogger != nil {
		qle = &querylog.Entry{
			Time:   time.Now().UnixNano(),
			Origin: z.Origin,
			Name:   qname,
			Qtype:  qtype,
		}
		defer srv.queryLogger.Write(qle)
	}

	logPrintf("[zone %s] incoming  %s %s (id %d) from %s\n", z.Origin, qname,
		dns.TypeToString[qtype], req.Id, w.RemoteAddr())

	// Global meter
	metrics.Get("queries").(metrics.Meter).Mark(1)

	// Zone meter
	z.Metrics.Queries.Mark(1)

	logPrintln("Got request", req)

	label := getQuestionName(z, req)

	z.Metrics.LabelStats.Add(label)

	// IP that's talking to us (not EDNS CLIENT SUBNET)
	var realIP net.IP

	if addr, ok := w.RemoteAddr().(*net.UDPAddr); ok {
		realIP = make(net.IP, len(addr.IP))
		copy(realIP, addr.IP)
	} else if addr, ok := w.RemoteAddr().(*net.TCPAddr); ok {
		realIP = make(net.IP, len(addr.IP))
		copy(realIP, addr.IP)
	}
	if qle != nil {
		qle.RemoteAddr = realIP.String()
	}

	z.Metrics.ClientStats.Add(realIP.String())

	var ip net.IP // EDNS or real IP
	var edns *dns.EDNS0_SUBNET
	var opt_rr *dns.OPT

	for _, extra := range req.Extra {

		switch extra.(type) {
		case *dns.OPT:
			for _, o := range extra.(*dns.OPT).Option {
				opt_rr = extra.(*dns.OPT)
				switch e := o.(type) {
				case *dns.EDNS0_NSID:
					// do stuff with e.Nsid
				case *dns.EDNS0_SUBNET:
					z.Metrics.EdnsQueries.Mark(1)
					logPrintln("Got edns", e.Address, e.Family, e.SourceNetmask, e.SourceScope)
					if e.Address != nil {
						edns = e
						ip = e.Address

						if qle != nil {
							qle.HasECS = true
							qle.ClientAddr = fmt.Sprintf("%s/%d", ip, e.SourceNetmask)
						}
					}
				}
			}
		}
	}

	if len(ip) == 0 { // no edns subnet
		ip = realIP
		if qle != nil {
			qle.ClientAddr = fmt.Sprintf("%s/%d", ip, len(ip)*8)
		}
	}

	targets, netmask := z.Options.Targeting.GetTargets(ip)

	if qle != nil {
		qle.Targets = targets
	}

	m := new(dns.Msg)

	if qle != nil {
		defer func() {
			qle.Rcode = m.Rcode
			qle.Answers = len(m.Answer)
		}()
	}

	m.SetReply(req)
	if e := m.IsEdns0(); e != nil {
		m.SetEdns0(4096, e.Do())
	}
	m.Authoritative = true

	// TODO: set scope to 0 if there are no alternate responses
	if edns != nil {
		if edns.Family != 0 {
			if netmask < 16 {
				netmask = 16
			}
			edns.SourceScope = uint8(netmask)
			m.Extra = append(m.Extra, opt_rr)
		}
	}

	labels, labelQtype := z.findLabels(label, targets, qTypes{dns.TypeMF, dns.TypeCNAME, qtype})
	if labelQtype == 0 {
		labelQtype = qtype
	}

	if labels == nil {

		permitDebug := !*flagPrivateDebug || (realIP != nil && realIP.IsLoopback())

		firstLabel := (strings.Split(label, "."))[0]

		if qle != nil {
			qle.LabelName = firstLabel
		}

		if permitDebug && firstLabel == "_status" {
			if qtype == dns.TypeANY || qtype == dns.TypeTXT {
				m.Answer = statusRR(label + "." + z.Origin + ".")
			} else {
				m.Ns = append(m.Ns, z.SoaRR())
			}
			m.Authoritative = true
			w.WriteMsg(m)
			return
		}

		if firstLabel == "_country" {
			if qtype == dns.TypeANY || qtype == dns.TypeTXT {
				h := dns.RR_Header{Ttl: 1, Class: dns.ClassINET, Rrtype: dns.TypeTXT}
				h.Name = label + "." + z.Origin + "."

				txt := []string{
					w.RemoteAddr().String(),
					ip.String(),
				}

				targets, netmask := z.Options.Targeting.GetTargets(ip)
				txt = append(txt, strings.Join(targets, " "))
				txt = append(txt, fmt.Sprintf("/%d", netmask), serverID, serverIP)

				m.Answer = []dns.RR{&dns.TXT{Hdr: h,
					Txt: txt,
				}}
			} else {
				m.Ns = append(m.Ns, z.SoaRR())
			}

			m.Authoritative = true

			w.WriteMsg(m)
			return
		}

		// return NXDOMAIN
		m.SetRcode(req, dns.RcodeNameError)
		m.Authoritative = true

		m.Ns = []dns.RR{z.SoaRR()}

		w.WriteMsg(m)
		return
	}

	if servers := labels.Picker(labelQtype, labels.MaxHosts); servers != nil {
		var rrs []dns.RR
		for _, record := range servers {
			rr := dns.Copy(record.RR)
			rr.Header().Name = qname
			rrs = append(rrs, rr)
		}
		m.Answer = rrs
	}

	if len(m.Answer) == 0 {
		// Return a SOA so the NOERROR answer gets cached
		m.Ns = append(m.Ns, z.SoaRR())
	}

	logPrintln(m)

	if qle != nil {
		qle.LabelName = labels.Label
		qle.Answers = len(m.Answer)
		qle.Rcode = m.Rcode
	}
	err := w.WriteMsg(m)
	if err != nil {
		// if Pack'ing fails the Write fails. Return SERVFAIL.
		log.Println("Error writing packet", m)
		dns.HandleFailed(w, req)
	}
	return
}
Exemplo n.º 4
0
Arquivo: q.go Projeto: raybejjani/dns
func main() {
	short = flag.Bool("short", false, "abbreviate long DNSSEC records")
	dnssec := flag.Bool("dnssec", false, "request DNSSEC records")
	query := flag.Bool("question", false, "show question")
	check := flag.Bool("check", false, "check internal DNSSEC consistency")
	raw := flag.Bool("raw", false, "do not strip 'http://' from the qname")
	six := flag.Bool("6", false, "use IPv6 only")
	four := flag.Bool("4", false, "use IPv4 only")
	anchor := flag.String("anchor", "", "use the DNSKEY in this file for interal DNSSEC consistency")
	tsig := flag.String("tsig", "", "request tsig with key: [hmac:]name:key")
	port := flag.Int("port", 53, "port number to use")
	aa := flag.Bool("aa", false, "set AA flag in query")
	ad := flag.Bool("ad", false, "set AD flag in query")
	cd := flag.Bool("cd", false, "set CD flag in query")
	rd := flag.Bool("rd", true, "set RD flag in query")
	fallback := flag.Bool("fallback", false, "fallback to 4096 bytes bufsize and after that TCP")
	tcp := flag.Bool("tcp", false, "TCP mode")
	nsid := flag.Bool("nsid", false, "set edns nsid option")
	client := flag.String("client", "", "set edns client-subnet option")
	//serial := flag.Int("serial", 0, "perform an IXFR with this serial")
	flag.Usage = func() {
		fmt.Fprintf(os.Stderr, "Usage: %s [options] [@server] [qtype] [qclass] [name ...]\n", os.Args[0])
		flag.PrintDefaults()
	}

	qtype := uint16(0)
	qclass := uint16(dns.ClassINET)
	var qname []string

	flag.Parse()
	if *anchor != "" {
		f, err := os.Open(*anchor)
		if err != nil {
			fmt.Fprintf(os.Stderr, "Failure to open %s: %s\n", *anchor, err.Error())
		}
		r, err := dns.ReadRR(f, *anchor)
		if err != nil {
			fmt.Fprintf(os.Stderr, "Failure to read an RR from %s: %s\n", *anchor, err.Error())
		}
		if k, ok := r.(*dns.DNSKEY); !ok {
			fmt.Fprintf(os.Stderr, "No DNSKEY read from %s\n", *anchor)
		} else {
			dnskey = k
		}
	}

	var nameserver string

Flags:
	for i := 0; i < flag.NArg(); i++ {
		// If it starts with @ it is a nameserver
		if flag.Arg(i)[0] == '@' {
			nameserver = flag.Arg(i)
			continue Flags
		}
		// First class, then type, to make ANY queries possible
		// And if it looks like type, it is a type
		if k, ok := dns.StringToType[strings.ToUpper(flag.Arg(i))]; ok {
			qtype = k
			continue Flags
		}
		// If it looks like a class, it is a class
		if k, ok := dns.StringToClass[strings.ToUpper(flag.Arg(i))]; ok {
			qclass = k
			continue Flags
		}
		// If it starts with TYPExxx it is unknown rr
		if strings.HasPrefix(flag.Arg(i), "TYPE") {
			i, e := strconv.Atoi(string([]byte(flag.Arg(i))[4:]))
			if e == nil {
				qtype = uint16(i)
				continue Flags
			}
		}

		// Anything else is a qname
		qname = append(qname, flag.Arg(i))
	}
	if len(qname) == 0 {
		qname = make([]string, 1)
		qname[0] = "."
		qtype = dns.TypeNS
	}
	if qtype == 0 {
		qtype = dns.TypeA
	}

	if len(nameserver) == 0 {
		conf, err := dns.ClientConfigFromFile("/etc/resolv.conf")
		if err != nil {
			fmt.Fprintln(os.Stderr, err)
			os.Exit(2)
		}
		nameserver = "@" + conf.Servers[0]
	}

	nameserver = string([]byte(nameserver)[1:]) // chop off @
	// if the nameserver is from /etc/resolv.conf the [ and ] are already
	// added, thereby breaking net.ParseIP. Check for this and don't
	// fully qualify such a name
	if nameserver[0] == '[' && nameserver[len(nameserver)-1] == ']' {
		nameserver = nameserver[1 : len(nameserver)-1]
	}
	if i := net.ParseIP(nameserver); i != nil {
		nameserver = net.JoinHostPort(nameserver, strconv.Itoa(*port))
	} else {
		nameserver = dns.Fqdn(nameserver) + ":" + strconv.Itoa(*port)
	}
	c := new(dns.Client)
	if *tcp {
		c.Net = "tcp"
		if *four {
			c.Net = "tcp4"
		}
		if *six {
			c.Net = "tcp6"
		}
	} else {
		c.Net = "udp"
		if *four {
			c.Net = "udp4"
		}
		if *six {
			c.Net = "udp6"
		}
	}

	m := new(dns.Msg)
	m.MsgHdr.Authoritative = *aa
	m.MsgHdr.AuthenticatedData = *ad
	m.MsgHdr.CheckingDisabled = *cd
	m.MsgHdr.RecursionDesired = *rd
	m.Question = make([]dns.Question, 1)

	if *dnssec || *nsid || *client != "" {
		o := new(dns.OPT)
		o.Hdr.Name = "."
		o.Hdr.Rrtype = dns.TypeOPT
		if *dnssec {
			o.SetDo()
			o.SetUDPSize(dns.DefaultMsgSize)
		}
		if *nsid {
			e := new(dns.EDNS0_NSID)
			e.Code = dns.EDNS0NSID
			o.Option = append(o.Option, e)
			// NSD will not return nsid when the udp message size is too small
			o.SetUDPSize(dns.DefaultMsgSize)
		}
		if *client != "" {
			e := new(dns.EDNS0_SUBNET)
			e.Code = dns.EDNS0SUBNET
			e.SourceScope = 0
			e.Address = net.ParseIP(*client)
			if e.Address == nil {
				fmt.Fprintf(os.Stderr, "Failure to parse IP address: %s\n", *client)
				return
			}
			e.Family = 1 // IP4
			e.SourceNetmask = net.IPv4len * 8
			if e.Address.To4() == nil {
				e.Family = 2 // IP6
				e.SourceNetmask = net.IPv6len * 8
			}
			o.Option = append(o.Option, e)
		}
		m.Extra = append(m.Extra, o)
	}

	for _, v := range qname {
		if !*raw && strings.HasPrefix(v, "http://") {
			v = v[7:]
			if v[len(v)-1] == '/' {
				v = v[:len(v)-1]
			}
		}

		m.Question[0] = dns.Question{dns.Fqdn(v), qtype, qclass}
		m.Id = dns.Id()
		// Add tsig
		if *tsig != "" {
			if algo, name, secret, ok := tsigKeyParse(*tsig); ok {
				m.SetTsig(name, algo, 300, time.Now().Unix())
				c.TsigSecret = map[string]string{name: secret}
			} else {
				fmt.Fprintf(os.Stderr, "TSIG key data error\n")
				return
			}
		}
		if *query {
			fmt.Printf("%s", m.String())
			fmt.Printf("\n;; size: %d bytes\n\n", m.Len())
		}
		if qtype == dns.TypeAXFR {
			c.Net = "tcp"
			doXfr(c, m, nameserver)
			continue
		}
		if qtype == dns.TypeIXFR {
			doXfr(c, m, nameserver)
			continue
		}
		r, rtt, e := c.Exchange(m, nameserver)
	Redo:
		if e != nil {
			fmt.Printf(";; %s\n", e.Error())
			continue
		}
		if r.Id != m.Id {
			fmt.Fprintf(os.Stderr, "Id mismatch\n")
			return
		}
		if r.MsgHdr.Truncated && *fallback {
			if c.Net != "tcp" {
				if !*dnssec {
					fmt.Printf(";; Truncated, trying %d bytes bufsize\n", dns.DefaultMsgSize)
					o := new(dns.OPT)
					o.Hdr.Name = "."
					o.Hdr.Rrtype = dns.TypeOPT
					o.SetUDPSize(dns.DefaultMsgSize)
					m.Extra = append(m.Extra, o)
					r, rtt, e = c.Exchange(m, nameserver)
					*dnssec = true
					goto Redo
				} else {
					// First EDNS, then TCP
					fmt.Printf(";; Truncated, trying TCP\n")
					c.Net = "tcp"
					r, rtt, e = c.Exchange(m, nameserver)
					goto Redo
				}
			}
		}
		if r.MsgHdr.Truncated && !*fallback {
			fmt.Printf(";; Truncated\n")
		}
		if *check {
			sigCheck(r, nameserver, *tcp)
		}
		if *short {
			r = shortMsg(r)
		}

		fmt.Printf("%v", r)
		fmt.Printf("\n;; query time: %.3d µs, server: %s(%s), size: %d bytes\n", rtt/1e3, nameserver, c.Net, r.Len())
	}
}
Exemplo n.º 5
0
Arquivo: q.go Projeto: valm0unt/exdns
func main() {
	short = flag.Bool("short", false, "abbreviate long DNSSEC records")
	dnssec := flag.Bool("dnssec", false, "request DNSSEC records")
	query := flag.Bool("question", false, "show question")
	check := flag.Bool("check", false, "check internal DNSSEC consistency")
	six := flag.Bool("6", false, "use IPv6 only")
	four := flag.Bool("4", false, "use IPv4 only")
	anchor := flag.String("anchor", "", "use the DNSKEY in this file as trust anchor")
	tsig := flag.String("tsig", "", "request tsig with key: [hmac:]name:key")
	port := flag.Int("port", 53, "port number to use")
	aa := flag.Bool("aa", false, "set AA flag in query")
	ad := flag.Bool("ad", false, "set AD flag in query")
	cd := flag.Bool("cd", false, "set CD flag in query")
	rd := flag.Bool("rd", true, "set RD flag in query")
	fallback := flag.Bool("fallback", false, "fallback to 4096 bytes bufsize and after that TCP")
	tcp := flag.Bool("tcp", false, "TCP mode, multiple queries are asked over the same connection")
	nsid := flag.Bool("nsid", false, "set edns nsid option")
	client := flag.String("client", "", "set edns client-subnet option")
	clientdraftcode := flag.Bool("clientdraft", false, "set edns client-subnet option using the draft option code")
	opcode := flag.String("opcode", "query", "set opcode to query|update|notify")
	rcode := flag.String("rcode", "success", "set rcode to noerror|formerr|nxdomain|servfail|...")
	//serial := flag.Int("serial", 0, "perform an IXFR with this serial")
	flag.Usage = func() {
		fmt.Fprintf(os.Stderr, "Usage: %s [options] [@server] [qtype...] [qclass...] [name ...]\n", os.Args[0])
		flag.PrintDefaults()
	}

	var (
		qtype  []uint16
		qclass []uint16
		qname  []string
	)

	flag.Parse()
	if *anchor != "" {
		f, err := os.Open(*anchor)
		if err != nil {
			fmt.Fprintf(os.Stderr, "Failure to open %s: %s\n", *anchor, err.Error())
		}
		r, err := dns.ReadRR(f, *anchor)
		if err != nil {
			fmt.Fprintf(os.Stderr, "Failure to read an RR from %s: %s\n", *anchor, err.Error())
		}
		if k, ok := r.(*dns.DNSKEY); !ok {
			fmt.Fprintf(os.Stderr, "No DNSKEY read from %s\n", *anchor)
		} else {
			dnskey = k
		}
	}

	var nameserver string

Flags:
	for i := 0; i < flag.NArg(); i++ {
		// If it starts with @ it is a nameserver
		if flag.Arg(i)[0] == '@' {
			nameserver = flag.Arg(i)
			continue Flags
		}
		// First class, then type, to make ANY queries possible
		// And if it looks like type, it is a type
		if k, ok := dns.StringToType[strings.ToUpper(flag.Arg(i))]; ok {
			qtype = append(qtype, k)
			continue Flags
		}
		// If it looks like a class, it is a class
		if k, ok := dns.StringToClass[strings.ToUpper(flag.Arg(i))]; ok {
			qclass = append(qclass, k)
			continue Flags
		}
		// If it starts with TYPExxx it is unknown rr
		if strings.HasPrefix(flag.Arg(i), "TYPE") {
			i, e := strconv.Atoi(string([]byte(flag.Arg(i))[4:]))
			if e == nil {
				qtype = append(qtype, uint16(i))
				continue Flags
			}
		}
		// If it starts with CLASSxxx it is unknown class
		if strings.HasPrefix(flag.Arg(i), "CLASS") {
			i, e := strconv.Atoi(string([]byte(flag.Arg(i))[5:]))
			if e == nil {
				qclass = append(qclass, uint16(i))
				continue Flags
			}
		}
		// Anything else is a qname
		qname = append(qname, flag.Arg(i))
	}
	if len(qname) == 0 {
		qname = []string{"."}
		if len(qtype) == 0 {
			qtype = append(qtype, dns.TypeNS)
		}
	}
	if len(qtype) == 0 {
		qtype = append(qtype, dns.TypeA)
	}
	if len(qclass) == 0 {
		qclass = append(qclass, dns.ClassINET)
	}

	if len(nameserver) == 0 {
		conf, err := dns.ClientConfigFromFile("/etc/resolv.conf")
		if err != nil {
			fmt.Fprintln(os.Stderr, err)
			os.Exit(2)
		}
		nameserver = "@" + conf.Servers[0]
	}

	nameserver = string([]byte(nameserver)[1:]) // chop off @
	// if the nameserver is from /etc/resolv.conf the [ and ] are already
	// added, thereby breaking net.ParseIP. Check for this and don't
	// fully qualify such a name
	if nameserver[0] == '[' && nameserver[len(nameserver)-1] == ']' {
		nameserver = nameserver[1 : len(nameserver)-1]
	}
	if i := net.ParseIP(nameserver); i != nil {
		nameserver = net.JoinHostPort(nameserver, strconv.Itoa(*port))
	} else {
		nameserver = dns.Fqdn(nameserver) + ":" + strconv.Itoa(*port)
	}
	c := new(dns.Client)
	t := new(dns.Transfer)
	c.Net = "udp"
	if *four {
		c.Net = "udp4"
	}
	if *six {
		c.Net = "udp6"
	}
	if *tcp {
		c.Net = "tcp"
		if *four {
			c.Net = "tcp4"
		}
		if *six {
			c.Net = "tcp6"
		}
	}

	m := new(dns.Msg)
	m.MsgHdr.Authoritative = *aa
	m.MsgHdr.AuthenticatedData = *ad
	m.MsgHdr.CheckingDisabled = *cd
	m.MsgHdr.RecursionDesired = *rd
	m.Question = make([]dns.Question, 1)
	m.Opcode = dns.OpcodeQuery
	if op, ok := dns.StringToOpcode[strings.ToUpper(*opcode)]; ok {
		m.Opcode = op
	}
	m.Rcode = dns.RcodeSuccess
	if rc, ok := dns.StringToRcode[strings.ToUpper(*rcode)]; ok {
		m.Rcode = rc
	}

	if *dnssec || *nsid || *client != "" {
		o := new(dns.OPT)
		o.Hdr.Name = "."
		o.Hdr.Rrtype = dns.TypeOPT
		if *dnssec {
			o.SetDo()
			o.SetUDPSize(dns.DefaultMsgSize)
		}
		if *nsid {
			e := new(dns.EDNS0_NSID)
			e.Code = dns.EDNS0NSID
			o.Option = append(o.Option, e)
			// NSD will not return nsid when the udp message size is too small
			o.SetUDPSize(dns.DefaultMsgSize)
		}
		if *client != "" {
			e := new(dns.EDNS0_SUBNET)
			e.Code = dns.EDNS0SUBNET
			if *clientdraftcode {
				e.DraftOption = true
			}
			e.SourceScope = 0
			e.Address = net.ParseIP(*client)
			if e.Address == nil {
				fmt.Fprintf(os.Stderr, "Failure to parse IP address: %s\n", *client)
				return
			}
			e.Family = 1 // IP4
			e.SourceNetmask = net.IPv4len * 8
			if e.Address.To4() == nil {
				e.Family = 2 // IP6
				e.SourceNetmask = net.IPv6len * 8
			}
			o.Option = append(o.Option, e)
		}
		m.Extra = append(m.Extra, o)
	}
	if *tcp {
		co := new(dns.Conn)
		tcp := "tcp"
		if *six {
			tcp = "tcp6"
		}
		var err error
		if co.Conn, err = net.DialTimeout(tcp, nameserver, 2*time.Second); err != nil {
			fmt.Fprintf(os.Stderr, "Dialing "+nameserver+" failed: "+err.Error()+"\n")
			return
		}
		defer co.Close()
		qt := dns.TypeA
		qc := uint16(dns.ClassINET)
		for i, v := range qname {
			if i < len(qtype) {
				qt = qtype[i]
			}
			if i < len(qclass) {
				qc = qclass[i]
			}
			m.Question[0] = dns.Question{dns.Fqdn(v), qt, qc}
			m.Id = dns.Id()
			if *tsig != "" {
				if algo, name, secret, ok := tsigKeyParse(*tsig); ok {
					m.SetTsig(name, algo, 300, time.Now().Unix())
					c.TsigSecret = map[string]string{name: secret}
					t.TsigSecret = map[string]string{name: secret}
				} else {
					fmt.Fprintf(os.Stderr, ";; TSIG key data error\n")
					continue
				}
			}
			co.SetReadDeadline(time.Now().Add(2 * time.Second))
			co.SetWriteDeadline(time.Now().Add(2 * time.Second))

			if *query {
				fmt.Printf("%s", m.String())
				fmt.Printf("\n;; size: %d bytes\n\n", m.Len())
			}
			then := time.Now()
			if e := co.WriteMsg(m); e != nil {
				fmt.Fprintf(os.Stderr, ";; %s\n", e.Error())
				continue
			}
			r, e := co.ReadMsg()
			if e != nil {
				fmt.Fprintf(os.Stderr, ";; %s\n", e.Error())
				continue
			}
			rtt := time.Since(then)
			if r.Id != m.Id {
				fmt.Fprintf(os.Stderr, "Id mismatch\n")
				continue
			}

			if *check {
				sigCheck(r, nameserver, true)
				denialCheck(r)
				fmt.Println()
			}
			if *short {
				r = shortMsg(r)
			}

			fmt.Printf("%v", r)
			fmt.Printf("\n;; query time: %.3d µs, server: %s(%s), size: %d bytes\n", rtt/1e3, nameserver, tcp, r.Len())
		}
		return
	}

	qt := dns.TypeA
	qc := uint16(dns.ClassINET)

Query:
	for i, v := range qname {
		if i < len(qtype) {
			qt = qtype[i]
		}
		if i < len(qclass) {
			qc = qclass[i]
		}
		m.Question[0] = dns.Question{dns.Fqdn(v), qt, qc}
		m.Id = dns.Id()
		if *tsig != "" {
			if algo, name, secret, ok := tsigKeyParse(*tsig); ok {
				m.SetTsig(name, algo, 300, time.Now().Unix())
				c.TsigSecret = map[string]string{name: secret}
				t.TsigSecret = map[string]string{name: secret}
			} else {
				fmt.Fprintf(os.Stderr, "TSIG key data error\n")
				continue
			}
		}
		if *query {
			fmt.Printf("%s", m.String())
			fmt.Printf("\n;; size: %d bytes\n\n", m.Len())
		}
		if qt == dns.TypeAXFR || qt == dns.TypeIXFR {
			env, err := t.In(m, nameserver)
			if err != nil {
				fmt.Printf(";; %s\n", err.Error())
				continue
			}
			envelope := 0
			record := 0
			for e := range env {
				if e.Error != nil {
					fmt.Printf(";; %s\n", e.Error.Error())
					continue Query
				}
				for _, r := range e.RR {
					fmt.Printf("%s\n", r)
				}
				record += len(e.RR)
				envelope++
			}
			fmt.Printf("\n;; xfr size: %d records (envelopes %d)\n", record, envelope)
			continue
		}
		r, rtt, e := c.Exchange(m, nameserver)
	Redo:
		if e != nil {
			fmt.Printf(";; %s\n", e.Error())
			continue
		}
		if r.Id != m.Id {
			fmt.Fprintf(os.Stderr, "Id mismatch\n")
			return
		}
		if r.MsgHdr.Truncated && *fallback {
			if !*dnssec {
				fmt.Printf(";; Truncated, trying %d bytes bufsize\n", dns.DefaultMsgSize)
				o := new(dns.OPT)
				o.Hdr.Name = "."
				o.Hdr.Rrtype = dns.TypeOPT
				o.SetUDPSize(dns.DefaultMsgSize)
				m.Extra = append(m.Extra, o)
				r, rtt, e = c.Exchange(m, nameserver)
				*dnssec = true
				goto Redo
			} else {
				// First EDNS, then TCP
				fmt.Printf(";; Truncated, trying TCP\n")
				c.Net = "tcp"
				r, rtt, e = c.Exchange(m, nameserver)
				goto Redo
			}
		}
		if r.MsgHdr.Truncated && !*fallback {
			fmt.Printf(";; Truncated\n")
		}
		if *check {
			sigCheck(r, nameserver, *tcp)
			denialCheck(r)
			fmt.Println()
		}
		if *short {
			r = shortMsg(r)
		}

		fmt.Printf("%v", r)
		fmt.Printf("\n;; query time: %.3d µs, server: %s(%s), size: %d bytes\n", rtt/1e3, nameserver, c.Net, r.Len())
	}
}
Exemplo n.º 6
0
func findA(ednsModel *EDNSModel) string {

	var domain_a string

	var server string
	if len(ednsModel.NS) != 0 {
		server = ednsModel.NS[0]
	} else if len(ednsModel.SOA) != 0 {
		server = ednsModel.SOA[0]
	} else {
		server = OPEN_DNS_SERVER
	}
	if dns.IsFqdn(server) {
		server = server[0 : len(server)-1]
	}
	if !strings.HasSuffix(server, ":53") {
		server += ":53"
	}

	domain := dns.Fqdn(ednsModel.CName[len(ednsModel.CName)-1])
	msg := new(dns.Msg)
	msg.SetQuestion(domain, dns.TypeA)
	msg.RecursionDesired = true

	if ednsModel.ClientIP != "" {

		opt := new(dns.OPT)
		opt.Hdr.Name = "."
		opt.Hdr.Rrtype = dns.TypeOPT

		e := new(dns.EDNS0_SUBNET)
		e.Code = dns.EDNS0SUBNET
		e.Family = 1 // ipv4
		e.SourceNetmask = 32
		e.SourceScope = 0
		e.Address = net.ParseIP(ednsModel.ClientIP).To4()

		opt.Option = append(opt.Option, e)
		msg.Extra = []dns.RR{opt}
	}

	client := &dns.Client{
		DialTimeout:  5 * time.Second,
		ReadTimeout:  20 * time.Second,
		WriteTimeout: 20 * time.Second,
	}

	resp, rtt, err := client.Exchange(msg, server)
	//	fmt.Println(resp.Answer)

	if err != nil {
		fmt.Println(rtt, err) // 记录日志  rtt是查询耗时
		return ""
	}

	for i := len(resp.Answer) - 1; i >= 0; i-- {
		switch resp.Answer[i].Header().Rrtype {
		case dns.TypeA:
			temp_a := resp.Answer[i].(*dns.A)
			domain_a += fmt.Sprint(temp_a.A, ":", temp_a.Hdr.Ttl, ",")
			break
		case dns.TypeCNAME:
			temp_cname := resp.Answer[i].(*dns.CNAME)
			ednsModel.CName = append(ednsModel.CName, temp_cname.Target)
			break
		}
	}

	return domain_a
}